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I have a set of n numbers S = {a1,}. I have a classifier that takes a pair of any two numbers and produces a result. I discard pairs like (a, a). (ai, aj) is treated as different from (aj, ai).

method1 : I create all pairs of numbers and feed them to the classfier. In this way, I have to perform n^2 -n comparisons. So no. of comparisons is of the of the order O(n^2).

method2: I get additional input ak from S. I feed to the classifier the pairs (a1, ak), .... (an, ak) only. I take the positive outputs (say, (a1, ak) and (a5, ak)) from the classifiers and repeat for them only. That means in the next iteration I feed (a2, a1)....(an, a1). and (a1, an), (a2, an).... and the series goes on.

What order should the no. of comparisons be in this case?

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In general there are n^2 possible pairs, of which you're interested in n^2-n.

It doesn't matter what method you choose, the complexity will be Omega(n^2) as lower bound. That is because there are n^2-n pairs that you need to process and get the result for. The unneeded pairs do not change the magnitude since O(n) = O(n^2) thus not changing the total complexity.

Your first method eliminates the need to process the unneeded pairs and there are strictly n^2-n comparisons. Note, you need to pay with additional space complexity of O(n^2) to generate all the pairs.

Your second method will has n/2 unnecessary comparisons so in total there are n^2-n/2 comparisons.

Either way you choose, it will be O(n^2) time complexity.

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